%0 Journal Article
%T Effects of ¦Å©\viniferin, a dehydrodimer of resveratrol, on transepithelial active ion transport and ion permeability in the rat small and large intestinal mucosa
%A Atsukazu Kuwahara
%A Junji Ishikawa
%A Shin©\Ichiro Karaki
%A Yuka Tomizawa
%J Archive of "Physiological Reports".
%D 2016
%R 10.14814/phy2.12790
%X ¦Å©\Viniferin is a dehydrodimer of resveratrol, a polyphenol synthesized in many plants, including grapevine. The present study investigated the effects of ¦Å©\viniferin and resveratrol on epithelial secretory and barrier functions in isolated rat small and large intestinal mucosa. Mucosa¨Csubmucosa tissue preparations of various segments of the rat large and small intestines were mounted on Ussing chambers, and short©\circuit current (I sc) and tissue conductance (G t) were continuously measured. The mucosal addition of ¦Å©\viniferin (>10£¿5 mol/L) and resveratrol (>10£¿4 mol/L) to the cecal mucosa, which was the most sensitive region, induced an increase in I sc and a rapid phase decrease (P©\1) followed by rapid (P©\2) and broad (P©\3) peak increases in G t in concentration©\dependent manners. Mucosal ¦Å©\viniferin (10£¿4 mol/L), but not resveratrol (10£¿4 mol/L), increased the permeability of FITC©\conjugated dextran (4 kDa). The mucosal ¦Å©\viniferin¨Cevoked changes in I sc (Cl£¿ secretion), but not in G t, were attenuated by a selective cyclooxygenase (COX)©\1 inhibitor and a selective EP 4 prostaglandin receptor. The mucosal ¦Å©\viniferin¨Cevoked increase in I sc was partially attenuated, and P©\2, but not P©\1 or P©\3, change in G t was abolished by a transient receptor potential cation channel, subfamily A, member 1 (TRPA1) inhibitor. Moreover, the mucosal ¦Å©\viniferin concentration©\dependently attenuated the mucosal propionate (1 mmol/L)©\evoked increases in I sc and G t. Immunohistochemical studies revealed COX©\1¨Cimmunoreactive epithelial cells in the cecal crypt. The present study showed that mucosal ¦Å©\viniferin modulated transepithelial ion transport and permeability, possibly by activating sensory epithelial cells expressing COX©\1 and TRPA1. Moreover, mucosal ¦Å©\viniferin decreased mucosal sensitivity to other luminal molecules such as short©\chain fatty acids. In conclusion, these results suggest that ¦Å©\viniferin modifies intestinal mucosal transport and barrier functions
%K Epithelial ion transport
%K intestinal chemosensing
%K ussing chamber
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4873638/